The URL can be used to link to this page

Home My WebLink AboutTract Map 30264 Undeveloped Hydrologic Analysis'~ I ~ .~ ~ ~ ~ ~ ~ ~ :~ ~ ~ ~ ~ ~ ~ ~ ~ ~ UNDEVELOPED HYDROLOGIC ANALYSIS FOR WOLF VALLEY SPECIFIC PLAN CITY OF TEMECULA TRACT 29798 AND TRACT 30264 FEBRUARY 7, 2003 CASE I- HYDROLOGIC CALCULATIONS FOR EXISTING CONDITIONS NORTH HALF OF WOLF CREEK (SOUTH HALF UNDEVELOPED) ~ ian S. Hovagimyan `A No. 20278 Exp.33a05 * Civil ~P ,~F CAUF~ PREPARED BY :: Lohr + Associates Inc Lend Plenning 43513 Ridge Park Drlve Clvil Engineering Temecula CA 92590 Survayiny Ph.908676-6726 Fe:909699-0896 ATTENTION: HERMAN HOVAG~MYAN TELEPHONE: (909) 676-6726 1 `~ LOHR+ASSOCIATESINC. . T~F?~jl~ ~ Tk'^~_'~!= 435 JOBNo. 3aaaG 13 RIDGE PARK DRIVE BY uFQ~~ 7EMECULA,CA92590 -- DATE i2 /8 n~ ; PH.909~76-6726 ~ fAX 909~99-0896 SHT. / • LpND PLANNING ~ CIVIL ENGINEER~NG ~ SURVEYING OF ~1 r ~ ~ i ~ ~ . HYD RO LOGY ~ ,~ ~~ ~. y , 36 A B ~ SEF ,... o •~:~i:.S~ _ E F ~%~~ ` - - - --- ~ '~~~1 ~ - - -- 1 ~•~. w~w ' ------- :. ~. i' I J i^ ~~ ~y~w,iw~ _, -~4` C ~w ~ E~ ' / i , .'t, nral ~ ~1,. ~..~;, . :~ • !., ~ w~ . • . ~• ..~~ ~ ~' .y , n~. ~ r ~/ e ~dl. ~~ . m.d I ~ I ~y" ~ _ I ~ ~' ~: ."~~{I~ ~ t + ~ ~~ I / ~ ~-~ ~ ' -~/'_ _'_ r '.~ ° ___'_' "'~__ j ~'_ -- __„~,~"_'~,w.`"" ~ ~ k ~ ~ ~# T~------- i + ~. , i ~l ' i . i ~ -L--- ~~ ~'~`~~~~ ~~.. . TEMECULA ;:~;~ ,~,, ;;n----fl ., ' , '~ ~~ `~ ' ~ ' ~ ~--. , ~ ~ ~P i ' ~'~• ; ~ ~ ' ~ I I ~ ~J I __ - -___~__-___ _ __~_~~__~_~~~ i ~ ~~ . ~ . ' i ~ ~~ \ , ~ ~ ~ ~ ~ , , , \ , ~ ~ i ~ I ~ ~ ~ ~ I \ J ~~ ~ : I 0 / I 1 ----------i----"7La----f T~~~ ~~s ~ I ~ I n~n +-----'- ee I ~~ I ~ I yi ~ I ~ V ~ ~ ~ ~ I ' +~ '~ ; R/VE~SIDE ~ ~ , , , ~ -~----- , , , ----- ----- , i ------ -----------+-~ i i i ~ ~ ' i ~ ~ I i I I ~ I . L_ i i i ' 1 cs ~ nI~R/VER=Cp ~ ~ ~ ~ I SAN O/6G0 Cp~ - I v ~ ~ -~,-- ~ -----------+---- ' ------+-~ ---------t-- i i ' i ~ ' ~ ; sA ; D~EC o ~ ~ ~ ~ ~ ~ ~' i ~ ~ i ~ ~ ~ ~ r ~-----------l-------- ---~-------- ~ __~____ r-.: . :~ .^ . I. •- . .1 .:~ :. , ~I I _ .~~,;----~-~-+---------- .. ~; i F., ._, .~` i ~. , ~ ~ ~ , ~ ~ ~, ~ . ~~.`:~_ ~ i . -, ___-y i '; _ y ~ ,. 1 ' i y ~`: i , i '*- _-----a~ ` i I 1 ry5DN9' i 1{ 1 i[ , . ,, -+- - - - - .~'•`ec ~ ~ I "' i i ~ T 8S ~- ---~~--i - ~ ~ , ~ i i i i il i I I ~ I s i i i 3 I 1 I < ~ ~ _'_ y ~ ""'~ ~ ~ I I ~ ~ ~ -----~~~~ --=----- ~ ~ i ' i ~ ~ _, I ~ ' '` I S ° ~_ ~ _~ , ~ ~, ,- - ~--„i ---------+-------- -- ' i i , , ~ ~ co ~ ~ ~ ~ 6 ' ~ I ~ 1 ' i ---------1---~-------+---------- ~OGAT~~0,~1 ;/~;? ~ I~ 3 ~~ OB ~DBC 0 ~ p p D~ n D ~ .n~ ' ~ 0 9 Rl. - e e ~o ~-, _ n '' ~` . ~/ C6/ . ~ ~`B ~ ~ _ ..BC , . ~: - .. ~_- : ~ a ~ . ; O ~ . _~ I ~ A ' U~ A ~ R -~ . ~ _ • ' ~' "'^r" i ' ~ ~~ ° J ~~ • ~ II ,. . ~ - < ~ o ~ ,r ~ S ~ ~ ~r y ~~ - ~~ ~ ~ ~ ~ , ~' . ~pS' ~ A~ ! '. d, ~~. r\ ' ' • ~ : ~ _6"'-. t ' ~'~ .C'~ ~ ` -_ ' ' ^C`^' ' , s f , { Z ~ : ~ BC _ ._6 A ' • . e ~ C ~ `.~. ~ . ~ ' B _Dl , ~ ~ , ~ ~ . . ~~~ ~ .` . ~J ~~~ . ~'~ ~ ~/J er - .~ . __~~I.C.._ , `..e. ~ , a~ ~~{~) :G. ~ifG~4! > . v~.F1S.'9~ ~D ~ b.;.'= „ ~ ~ B , .._ - -`L ~.-~"`~ - ~ L= Je Y1 . . ... BC .'~ n 1~ ( ~ ih i~`-` ~~/y~[ ~ ^ .. I ~i ~ - ~V ~ ~: ~~, J 8 ~\ ~ v- 1•,. N~1~} J ~"'4 .\~~r •1 `~~(1 ~ Y ~ b ~ ~ • OJ 1 ~4~ : ~j T 1~~ V 1~! + !'~_ . ~„ r ~ ~/~~._,.:,,_ an~~ ~ ~s9C~ .r e Z ~ 4 - ~ . ~ 4 \ ~~ Y~~ v~ ~~. ~ , v» ~{ \ ^_ ~ J ~ r . " ~ \ \ `'... ~ +1 .. ; _ y ,~f= ~f( .4 , p ' \ , ~. . ~ , a ~, 6't ~ A r~ d .~ ,~ dj " - ~ ''~~ ~r.y ~ C t~ ib1 ~ 1~~ ~ " ~k . .rf. ' ~ i w'f~ ~ _ ~ 4ry~' <~ _ 1 p~.~ .! ' ~Ee9~„Y .~". '. cj~ _,.s. L,ri ~ ~.U~ Z~ ~ a /~ 'a`~ /'/~^ ~ '. t~ - - C . ~ ... ~ ;- ~:. _'L. G .'BI" >. ~ . k rl.rr°~- ~ ~'Y~~ y~'TO •y r.~y- .~ ~ ~ ~ [}B - _ ~ . ~ t .~ ~~~ , (~ ."~,.r ~Yry~~M -~~• '~~-~i -7 iB ~ ~r . ~.~- ~If -~',a~i N~~~.. ~- '.'- 7~}i ~'~ii i ~~-0'~~~ GY'° : ~ _ . .~ ~ ` ... ~,l<. ~3"w( ~~ . "1`~ ~ ' r! ~ ~ ~ If+~~` ,- .s `~-~•~1, t~ ==, `~ y-- ~ ~' >~ _ , ~ ~~ ~f~; ~~ ~`^"^,~.~~~~~~~~~r~ r ~~~~~ ~~ , {(~ -.e~y ~ n ~~ ~ >i,: t . bC-, r~yF,( -i- ~~~~~~~~,~~~~~ ,Y.Z~,Y.i ~r~'J/''r-~,~„~F~~ / • Y .,..-~ ~ , ~• ' -; ,1~~ ~ , ,'~ '~ t ~7. (']_ -. v ~'~~~~~ (~, ~ •:~ llv~ ~ j ~ ~~t V1~ ~5.~ 1, It~ f i r 1NJ 1~ y" l~ \lI"7 4;.~G, ' ,('Q i~ry-.t'~ `-? ~'~ .i _-rt 1" ~..."Cr~. St _ ~C~J ~ Vr i/ . .~ r4'~ ~ ~ . ~i ~' ~/~. ~~i - ~.~ . . ;ii e~j~:lit~~S ~4~1... ~~i. , ~r'l'^~- ~ '' , . . . ~'~ .. d~'~ n, I l ~ ~, l~ ~ '+„~ ~ 1 1 ~ 7 \ r ~,,,,~ ~ti }~~ _:\' sx ~ ~\~ Z S i ~~~..~. ~ ~^ -~ i ~'i'.{.: 1, ~ „` ~^L ~- ~~~1(.~ ~r:1.;~~~~ \ ~~`?'~ ~ `\h ~, •~.•. ~~~11 7~„ { tf<~ ~~ ~..,,Z , i~ ~~-~ jI 1 1yw~r r, .~.~.^. ~ p J I _ _ ~ t + 'C~ 1 .. a v ~ i~-.1! ~ .~,~"~ ~, a 14 ~ ~ ~ '~ i~~ '/f -f ( ~ ` y~, . Y1~; ,,,r-~~ . ~ _ _ t / ; - ` _ _ ~. f: `_ .~a~~ 7~- - . -_ -r~ ~ ' , f o = i , -a,:: Yi~Y~ .i~~i'. -~. ~ ! ~ ; ,'d ~ ' - ~., ' ~.~~` '~ I. . 11 "I \ . - l..rrS'i n" . u ~ l n ' ~ ' ~~ ' - ' f ' ~ - ~ t.~ ~_~ ' .l'- vtiy'"~~l }~~r~[~1~~~~F r(~'~~ ~~.`4-~-'.~tiiJL~/i ~~'~`4^R~~'T1{~t~~vj. .a'~-li ~4 ~ I ~/ ~+~xT S ~.r-.!. , i ~~f~ ~ti y ~'~(. ~ . ~ 1 ~l .~ ~~ ~ 1' ihi ~(~rT . ~ .y • ~ A,~ " \ l~~ ~ ~* \ a~S}G~~~,~e .ei l ~ t--lily~`~" t ~ ~iJ~ ~' ~ ]~. ~ ~ ~~" 1 _ ~ ~~Y' `~,~~+~x'~~ ~ ~ ~ ~ Z ~h~ 1.~ ) •~yi~• r~? ~ y` i\ ' .~ ~ ~.,.~\,~~ ',AJI i~J" ~. ~~S "~r ~ ~~~~l \~~~~ J'1~,~ ~ e~"';`} ' ~1 i i~-t 'l ~~'C~~Z~~( : '~ ~= 4n! ~y3 ` V"' '^. 1 1~'LV' i n„ L ^7 i; ~y' ~ `~ tl~ l.T~^~P-~ r~ 7.__LI 2 ~3~^-r~..~, ~! '.~. `"~,..Y,.. ~ V~ {5: ~ ~ ~'9~: ;1 ~%~~\~~.. y~~~~`c.~~. i ~`l~/-'~ ~J.~latL_e /r,,.,`-~ae~.v.+'1--~ '~`~~ Y~,,y ~: '~ ~ : ~7 , l,1 !~„~*'{~~ ~~ ria ~ i n'Ib ~ ~ r~o ~!'r~ ~ t. '::~Y.' .lyl~1A:,1,_ '"'~~T~~'', a ~."^- = ~ ~7,!/ ~ r~" r . i~ J ~ ~,. ~,~ -"`_ -'~". ~ ~.at.~~„~~.r:~~:l~~'.ii~? u•~ ~ ~ECeNO HYDROLOGIC SOILS GROUP MAP -- SOII$ GROUP BOUNO~R~ • SOIL4 GROUP OESIGMATIOM FOR R C F C~ W C D ~ PECHANGA ~ rIYJR01 pGY I~/IANUAL 0 FEE7 yppp PLATE C-t ei ~{ ~~ ;~ .~ ~ ~ ~ ' ~ i~ ~ ~ ~ ~, ~ ~. ~ ~ 1.B ~ .~ ~ ~ T c L 100 1000 ~ 900 ~ 8~ 70 7~~ ~ 600 500 ~ c k- 400 m ~ 350 `o ~ ~ 300 c `o f~ „~ 250 J r 0 m 200 J 50 LIMITATIONS~ 1, Moximum lenqfh =1000 Feet 2. Ma:imum arsa + 10 Acr~a a ~ H Y u n $ y~ ~00 o .~..d ~ C C ~ o a O Q~ N Eoe 100 o ~ F o ~~ o eo BO 0 o a ~0 E o v ~ 0 0 ' 0 : c 10 0 a 33 ~ a ~ s• 6 w 3O K ~ ~ ~° 4 . (J) 3 0 ~ Undeveloped ~ Good Cover $ Z o ~ 2S Undeveloped ` ~ c ~e ~ Fair Covx .6 E Undeveloped x ~ ~ .,y~ `Z~ ~ 20 Poor Cover ,p o ~ 19 ~ 8 Sinqie Famlly ~ b r, 1 (S-7 Du/aC) o ~ 16 _ ~/) o `c o YO 0 15 COTRMfC1O~ 14 (Paved)~ `o ~ 13 / ~ 12 ~2~ ~~. °u 11 / ~ 10 0 u C : m ~ 0 KEY L-H-Tc-K-Tc' ° PI Develooment 154 ° 9 80- Apartment E ~ 8 75- Mobile Home 65- Condominium 66-Sinqle Family-5,000 ff2 Lot 7 40- Single Family-i/4 Acre LO! ` 20- Single Fomily-I Acre Loi 6 10 - Slnqle Family-2 I/2 Acre Lof 100 EXAMPLE~ 5 ( i) L= 550~, H= 5.0~, K= Sinqle Family (5-7 Du/AC) Development, Tc=12.6 mi~. 4 (2 ) L= 550~, H= 5.0~, K= Commercial Devalopment, Tc=9.7 min. SAN BERNARDINO COUNTY TIME OF corvcE NOMOGRA HYDROLOGY MANUAL rno i~iiTiei c Tc (mIN~ 6 -~ ~ c IA 7 ~ C 0 8 0 0 > 9 0 10 E {i II s iz S ~•- . 14 " I9 N 16 ~ ~~ E 18 5 19 ~ ~ e 0 : c 25 u c 0 30 ~ 0 F 35 --i a0 n-a Figure u-i 5 LL ~ ~ W/~ LL V / W 2 Z ~ ~ ~ Z W H Z J J ~ Z Q ~ '~ a~~+~• Pr~P1~0 r~OHr N1~1M~A MNO~• M~.NMN O~er• U eW '~Nee ~py~~nN N~+eeP- ~Or~O• yiy~~~~ nNN.~w oee~P Z ^t ~'1~1FlnN NNMNN NNNN~ w • Y 7 ~~~~ ~w~~~ ~~w~r r~~ e •1 O ~ J 6 ei •r~~~ ~~NM~ •-hwM •~N~I1 ~~n~~ M~M~O Y1N00• i t 1~ ..W ~O~NOf ~rh<~II M~r1I1 PINNw~. ~e~~• ~~OOr w~~-aa _ __ _ • ~ ~ ~ • • ~ ~ ~ • • ~ ~ ~ • > Y NNNN ^ ~ ~~^~~ ^ • • • ~ • • ~ ~ ~ • N ~~~~ w~~n.~ ' C MM . S C y ~ W ~~ MrA~p O~NFl~ y~=r~~ ON~~pO ON~~pi ONONO NOMON N s < ~ ...... ~.. NNNNN PIAI4I~11~1 •111~y~O ~p/~~.Oi ~ w - . O Z u o u ':„^: N~ r~ N ~~ N N N ~I C N O O P O ry N~ N S p o O n.0 ~ N^ MNe/h /IIIIN~+ sOh~p : nnN~O ee~-~pa N:~I~II1 T~/~pMYI• •IIql1 FlIIPInP1 ANNNN NNNNN N~.~~~ N D .~ w~ e y v o 6 /IOON~ '11.~A1~ nM~~Y1 ~l~N• ~~l~e rs..Ne N~oNN 'N r •t N~rN~ ~r11~~1'1 M~~~• ~I~PrYI ~~Ilq/1 N~~00 •O~O~ K 1~ ~ W ~ > rN~'1~'119 1VNNNN NNNN~ • • . N ~......~ r.~~.~w r.~...r.~ Z Z W J ~M S '~ W Q ~ ~~ M'~"~~ 0^y'1~ ~1~Ih~• ON~~O~ ON10~ O~OY10 MONeYI N ~ ~r ~•~ ~•w ~'~ NNNNN I'll'IIIl~„1 •~11~1/~i iMl~OO Oi ~^~~~~ •e~~~ eNM~~1 e~~NY e~~.y1r pPwYie N.~n1.+ Y ~~ r11iNr I~~~YI• 1'IN..~ s~~~P r~IY1NM •FlI~NN .noeo u ~ u . . . . y ~ ~Flqll/~ NNNNN NNNNN N.~.~.... ~...w~r n.~..r.~ , w~~~w e ~ o V t rn~~r NPON~p oMONN •NrNr /I~~p/Iw ~Na~e r.INOI~ 1i O :~y rOlA~O PlMI~~O iMYI~• ~II'INN~ ~ 000 PPOCO rhM~i~O ~ 1 N N N N N ~~ w ~ w w ~ r ~ n ~ ~ ^ y ~ ~ • ~ ~ ~ • • ~ ~ ~ • ' O 2 '~ W N 0 ~ . o ~~ ^~M^^ •wi~.ee en~ae ~~ ~+' p ~.^ ~ ~~ N O N e N O N O N N . ~` NNNNN n1I11'II'1„I •~/~YIO ~OhhOe Oi ) . f • 1 1 ~ O M~• ~~~ Y M ~~ M~~ ~~~ N h Y N 1 i~ • P Y1 r e ii u~u :'~w~a •n..e~ ,.ran• na~~• ~o~-~-s an~nn ti~~.. ~^" f~Y M~~'1A ANIIFlM NNNNN NMNN~ 7 M ~. ~ ~.~ ^. ~~.~~w u~ ~ o uo e N V ` MMrrs •~I~~• •N~~• rn~-• M YI~. l ~~~~1/~ FlN~s- ~~rp~ •11~~I~II1 NNN~.~. ~ePP~ nEl~hl~ ~ J - ~ Y • ~ ~ ~ • • • ~ • ~ .. ..... ..... ... f > I'1qNNM MNMN~ • • . 1 Y ~w~.y.. ....~...+ .~..~.... ~.. • ~ . ~ • <o ~ f2 ~M - . p M V V O `: `~ T~1'•~• ~rN~1I yl^r~~ ~N~r• ON~~OC er10N0 Y10NON N ~t ~i ^^^~^' - ~.~.~ wiwwrtiti nnn~n ~~nne ~er.~oe ~ Z r C i O ~ L I t ~rN~~ •MM~~ N11~.~ y1•y1 hO A1~NrI1 PeN~00 N.~h~'1e Y 01 ~~1~ :~11 ^I~M~ Y1~ANN ~O•00 :iiMlYl •IPINN ~~000 U ^ ~1 • ~ • • • ~ ~ ~ • • ~ • Z ~ ~~I'IFl~1 IIMIi1MM MNNNN MM~+~~ ? ~. ~r ~~~~~ .~~....~~ O W t•~h..~ +M~..• ~q~~s N-ai• ee/IaP VP~eO MoON/1 C Oi ~~1/~M~ •~rr• ~1M11• IyNN~ OOP PO00 • •~~~~ Ii .~ IY ~ ~ 1 NMMMM .~w..,+i+ i....-..r.. ~.w.~.~.. ......~ ~ N r y F F f ~ ~^ I~~~"~~ ~^M/1~ Mrr~• ~NI~Op eN1~Oi ~y101f1• 1(~ONON ^~n ^~ ~ ~+ N N N N N Fl II I'1 I'1 I'1 •~ If~ Y1 ~O O I~ 1~ O i RCFC S wCD HYDROLOGY ~JANUAL n h W 6 N STANDARD INTENSITY - DURATION CURVES DATA 0 e~ ~~.. .. ~ . ~. _. ~ , ~ 0 r- ~ ~ '~ • .: .4 .3 .2 .I ~ 0 ! ~ ~ q S 6 •• PLATE D-5.2 i z ~ . _ _ '_O_ I 2 3 4 5 __ 6 9 :~ .~ '~ 3~.. i~ ~ ~I : I ~ i f -; ; ~ ~ i ; ~ I ~ ~ I ~ 1, t~ ~ ~ - I ;~ ; - . +. j I I i i i , ~ ~ ~ ~~ ~i~ ,;~ , ~ ~~~~'~III i,,,i!;!I ;.,,.,,, i ~ ,i ~ ~ i ~,~~ ~ - •, + ` .~ ~.j. {. _ ~ • ~ i ~ r ~ . _ 1 ~_ . _ . . ; ~ ~ 1 t . ~ i . ~ _~ r ~ " • , ( ;. _ _ r.l'i _ i~ . . - - - .. _ _ _ _ - - - ..~ I I j I j ,I~~ii j ~: ~~,i . i I ~ , i i ~~illt~ i i i ~ i ~ ~ta~iiiil - - . ...` -- _ d _ - I -- _ - . ..r _ - - I I ~ ~ ~ ~ ~ ,~;: ,~ ~ it ~~~i;i I l i~,: ~ ;;~~ ~?T - ~ - - - -- - - . _ . . _ - --- . ... - . - - - - - - - - _. ~ _ .~~ - --~_ . ~ ' j~11i~;I , ~ _4 + _ _ . . _ , - -~ -_t : t . ; - . . . , . . -I - ~. . ~ ~.~- ~:~ + _' ~. ~. ;:i=' . - - .. ~ :~ ~r ~ - - -- - _ ~ y ~ ~ I ~ ~ ~ / ~~ •L _ ~ O ~ r - LAND USE O R EV L M N T YPE - W _ - - - U - _ - r . ._ . y L+- ~ ' - " _ ' - _ _ . - .' ' ' " _. ._ __ _ ' ' _ _ _ ' _ _ ' _ _ ' ' _ _ W I ' T ~ P I R =~~ ' Y - - I ~ cF C a wc o - - ; - -- - -- - - _. - - - - -- - - - --- --- J~) ~ I - - - YDROLOGY 1 /JANUAL - - R UNOFF COEFFICIENT CURVES SOIL GROUP-C _ COVER TYPE-URBAN LANDSCAPING _ __ AMC-II (RUN OFF INDEX NUMBER 69) RAI N FA L L I NTE N SI TY I N INCHES PER HOUR ~ J I - ~ ~ - - ~ ~ 4 5 6 PLATE D-5.3 . lao Q ~ Zo( Riverside County Rational Hydrology Program ~ CIVILCADD/CIVILDSSIGN Sngineering Software,(c) 1989 - 2001 Version 6.4 ________Rational Aydrology Study ___-___Date:_02/06/03 File:264SX.out ~ ---------------------- ------------------------ TR 30264 BXISTING CONDITION INCLUDING OFF-SITES 100 Y8AI2 STORM JN 32006 ~ ------------------------------------------------ ------------------------ ********* HydrOlogy Study COntr01 InfOZmatiOn +*++****** ~: Englieh (in-lb) Units used in input data file ~ -------------------------------------------- ---------------------------- Lohr & Asaociates, Inc., Temecula, CA - S/N 773 ------------------------------------------------=- --------------------- Rational Method Hydrology Program based on ~ Rivereide County Flood Control & Water Consexvation Diatrict 1978 hydrology manual Stozm event (year) = 100.00 Antecedent Moisture Condition = 2 ~ Standard intensity-duration curves data (Plate D-4.1) ~ For the [ Murrieta,Tmc,Rnch CaNOrco ] area used. 10 year stoxm 10 minute intensity = 2.360(In/Hr) 10 year storm 60 minute inteneity ~ 0.880(In/Hr) 100 year storm 10 minute inteneity = 3.480(In/Hr) ~ 100 year storm 60 minute inteneity = 1.300(In/Hr) °~ Stoxm event year = 100.0 Calculated rainfall intensity data: ~, 1 hour intensity = 1.300(In/Hr) J- Slope of intensity duration curve = 0.5500 ~ ~ ++++++++++++++++++++++++++++++++++++++++++++t+++++++++++++++++++++++++ - Process from Point/Station 100.000 to Point/Station 101.000 ***• INITIAL ARSA SVAI,UATION **** ~ Initial area flow diatance = 1000.000(Ft.) Top (of initial area) elevation = 1148.000(Ft.) Bottom (of initial area) elevation = 1130.300(Ft.) ~' Difference in elevation = 17.700(Ft.) Slope = 0.01770 s(percent)= 1,~7 ~ TC = k(0.530)*[(length"3)/(elevation change)]"0.2 Initial area time of concentration = 18.823 min. Rainfall intensity = 2.460(In/Hr) for a 100.0 year etorm UNDSVSLOPSD (poor cover) aubarea Runoff Coefficient = 0.781 ~ Decimal fraction soil group A a 0.000 Decimal fraction soil group B= 1.000 Decimal fr ~ action soil group C~ 0.000 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 78.00 ~ Pervious area fraction = 1.000; Impervious fraction = 0.000 ti~ Zo 2 Initial subarea runoff = 19.200(CFS) Total initial stream area = 10.000(AC.) Pervioue area fraction = 1.000 ~ ~ +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++~++ Procesa from Point/Station 101.000 to Point/Station 102.000 **** NATURAL CHANNSL TIM$ + SUBARSA FLOW ADDITION ***~ ~ Top of natural channel elevation = 1130.300(Ft.) find of natural channel elevation = 1115.000(Ft.) Length of natural channel = 980.000(Ft.) , Estimated meaa flow rate at midpoint of channel = 37.440(CFS) ~ Natural valley channel type used ~ L.A. County flood control district foxmula for channel velocity: Velocity(ft/s) _ (7 + 8(q(Bnglish Units)".352)(slope"0.5) Velocity using mean channel flow = 4.45(Ft/s) ~ Correction to map slope used on extremely rugged channels with drops and waterfalle (Plate D-6.2) Nozmal channel slope = 0.0156 ~ Corrected/adjusted channel slope = 0.0156 Travel time = 3.67 min. TC = 22.g9 min. ~ Adding area flow to channel UNDEVSLOPBD (poor cover) subarea Runoff Coefficient = 0.770 ~ Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 ~ Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 2.230(In/Hr) for a 100.0 year etorm ~ Subarea runoff = 32.632(CFS) for 19.000(Ac.) Total runoff = 51.832(CFS) Total area = 29.000(Ac.) +++++++++++~++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Proceas from Point/Station 102.000 to Point/Station i03.000 *''+* N3~,T~1RA1+ CHANNSL TIMS + SUBARSA FLOW ADDITION t*** ~ Top of natural channel elevation = 1115.000(Ft.) $nd of natural channel elevation = 1100.500(Ft.) Length of natural channel = 1020.000(Ft.) ~ Estimated mean flom rate at midpoint of channel = 67.203(CFS) Natural valley channel type used ~ L.A. County flood control dietrict foxmula for channel velocity: Velocity(ft/s) _ (7 + 8(q(gnglish Units)".352)(slope"0.5) ~ Velocity using mean channel flow = 5.03(Ft/s) Correction to map slope used on extremely rugged channels mith drops and waterfa118 (Plate D-6.2) Normal channel slope = 0.0142 ~ Corrected/adjusted channel slope = 0.0142 Travel time = 3.38 min. TC = 25.8'7 min. ~ ~~ ~ ~ ~ ~ ~ Adding area flow to UNDSVSLOPED (poor cove Runoff Coefficient = 0 Decimal fraction soil channel _ r) subarea .761 group A = 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction eoil group D= 0.000 RI index for soil(AMC 2) = 78,00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 2.065(In/Hr) for a 100.0 year stoxm Subarea runoff = 27.039(CFS) for 17:200(AC.) Total runoff = 78.870(CFS) Total area = 46.200(Ac.) Zo3 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 103.000 to Point/Station 107.000 **** NATURAL CHANNBL TIMB + SUBAREA FLOW ADDITION +*** Top of natural channei elevation = 1100.500(Ft.) Bnd of natural channel elevation = 1095.800(Ft.) Length of natural channel = 420.000(Ft.) Bstimated mean flow rate at midpoint of channel = 79.297(CFS) Natural valley channel type used L.A. County flood control diatrict formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(gnglish Units)".352)(slope"0.5) Velocity using mean channel flom = 4.69(Ft/s) ~ Correction to map slope used on extremely rugged channels with drops and waterfalls (Plate D-6.2) Normal channel slope = 0.0112 ~ Corrected/adjusted channel slope = 0.0112 Travel time = 1.49 min. TC = 27.36 min. ~ ~~ ~ ~ ~ Adding area flow to UND$VBLOPSD (poor cov Runoff Coefficient = Decimal fraction soil Decimal fraction soil Decimal fraction soil Decimal fraction soil RI index for soil(AMC Pervious area fractio Rainfall intenaity = Subarea runoff = Total runoff = 79. channel er) subarea 0.758 group A = 0.000 group B = 1.000 group C =.0.000 group D = 0.000 2) = 78.00 n = 1.000; Impervious fraction 2.002(In/Hr) for a 100.0 0.758(CFS) for 0.500(Ac.) 629(CFS) Totai area = 46 = 0.000 year storm 700(AC.) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 107.000 to Point/Station 107.000 **** CONFLUSNCB OF MINOR STRfiAMS **** Along Main Stream number: 1 in normal stream number 1 Stream flow area = 46.700(AC.) Runoff from this stream = 79.629(CFS) Time of concentration = 27.36 min. Rainfall intensity = 2.002(In/Hr) `Z ~ 2a ~p ++++++++++~+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ Process from Point/Station 104.000 to Point/Station 105.000 *+** INITIAL ARBA SVALUATION **** Initial area flow distance = 785.000(Ft.) ~ Top (of initial ares) elevation = 1147.000(Ft.) Bottom (of initial area) elevation = 1133.OOOtFt.) Difference in elevation = 14.000(Ft.) ~ Slope = 0.01783 s(percent)= 1.78 TC = k(0.530)*[(length"3)/(elevation change)]"0.2 Initial area time of concentration = 17.060 min. ~ Rainfall intensity = 2.596(In/Hr) for a 100.0 year storni UNDEV$LOPSD (poor cover) subarea Runoff Coefficient = 0.786 Decimal fractipn soil group A= 0.000 ~, Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 ~ Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) _ 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Initial subarea runoff = 20.410(CFS) Total initial stream area = 10.000(Ac.) '~ Pervious area fraction = 1.000 ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++t+++++++++++++ ProCess from Point/Station 105.000 to Point/Station 106.000 `*** NATURAL CHANNSL TIMB + SUBARIIA FLOW ADDITION **** ~ Top of natural channel elevation = 1133.000(Ft.) Bnd of natural channel elevation = 1116.000(Ft.) ~ Length of natural channel = 1175.000(Ft.) 8stimated mean flow rate at midpoint of channel = 32.655(CFS) ~ Natural valley channel type used L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(Snglish Units)".352)(slope"0.5) Velocity ueing mean channel flow = 4.12(Ft/s) ~ Correction to map slope used on extremely rugged channels with drops and waterfalls (Plate D-6.2) Noxmal channel slope = 0.0145 ~ Corrected/adjusted channel slope = 0.0145 Travel time = 4.75 min. TC = 21.81 min. ~ Adding area flow to channel UNDSVBLOPSD (poor cover) aubarea Runoff Coefficient = 0.772 ~ Decimal fraction soil group A= 0.000 Decimal fraction soil group 8= 1.000 Decimal fraction soil group C= 0.000 ~. Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 ~ Rainfall intensity = 2.268(In/xr) for a 100.0 year storm Subarea runoff = 21.013(CFS) for 12.000(Ac.) Total runoff = 41.423(CFS) Total area = 22.000(AC.) ~ `3 ~ Zo5 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ Process from Point/Station 106.000 to Point/Station 107.000 **** NATURAL CHANNBL TIMS + SUBARBA FLOW ADDITION **** ~ Top of natural channel elevation = 1116.000(Ft.) End of natural channel elevation = 1095.800(Ft.) - Length of natural channel = 1260.000(Ft.) ~ Batimated mean flow rate at midpoint of channel = 50.366(CFS) __. Natural valley channel type used L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q($nglieh Units)".352}(slope"0.5) _ Velocity using mean channel flow = 4.91(Ft/s) Correction to map slope used on extremely rugged channels with ~ drops and waterfalls (Plate D-6.2) Noxmal channel slope = 0.0160 Corrected/adjusted channel alope = 0.0160 ,~ Travel time = 4.28 mi.n. TC = 26.08 min. ~ Adding area flow to channel UNDHVSIAP~ (poor cover) subarea Runoff Coefficient = 0.761 ~ Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 78.00 ~ Pervious area fraction = 1.000; Impervioue fraction = 0.000 Rainfall intensity = 2.056(In/Hr) for a 100.0 year etoxm ~ Subarea runoff = 14.857(CFS) for 9.500(AC31.500(Ac.) Total runoff = 56.279(CFS) Total area = ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 107.000 to Point/Station 107.000 **** CONFLUSNCB OF MINOR STRBAMS **** ~: Along Main Stream number: 1 in norn~al stream number 2 Stream flow area = 31.500(Ac.) Runoff from thie stream = 56.2'79(CPS) ~ Time of concentration = 26.08 min. Rainfall intenaity = 2.056(In/Hr) Summary of stream data: ~ Stream Flow rate TC Rainfall Intensity No. (CFS) (min) (In/Hr) , 1 79.629 27.36 2.002 2 56.279 26.08 2.056 ~ L~argest stream flow has longer time of concentration 79.629 + sum of Qb Ia/ib ~ 56.279 * 0.974 = 54.815 Qp = 134.443 ~ Total of 2 streams to confluence: ~ 20~ 1 Flow rates before confluence point: 79.629 56.279 ~ Area of etreams before confluence: 46.700 31.500 Resulta of confluence: ~ Total flow rate = 134.443(CFS) Time of concentration = 27.365 min. Effective atream area after confluence = 78.200(AC.) I ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process•from Point/Station 107.000 to Point/Station 110.000 ~ **** NATt7RAL CHANNSL TIMS + SUBARSP, FLOW ADDITION **** Top of natural channel elevation = 1095.800(Ft.) ~ Snd of natural channel elevation = 1067.500(Ft.) Length of natural channel = 910.000(Ft.) Betimated mean flow rate at midpoint of channel = 143.899(CFS) ~ Natural valley channel type used L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(Bngliah Units)".352)(slope"0.5) ~ Velocity using mean channel flow = 5.06(Ft/s) Correction to map slope used on extremely rugged channela with drops and waterfalls (Plate D-6.2) ~ Normal channel slope = 0.0091 Corrected/adjusted channel alope = 0.0091 Travel time = 3.00 min. TC = 30.36 min. ~ Adding ares flow to channel , UNDEVSLOPED (poor cover) subarea Runoff Coefficient = 0.751 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 ~ Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 RI index for eoil(AMC 2) = 78.00 Pervious area fraction a 1.000; Impervious fraction = 0.000 ~; Rainfall intensity = 1.891(In/Hr) for a 100.0 year storni Subarea runoff = 15.614(CFS) for 11.000(Ac.) Total runoff ~ 150.057(CFS) Total area = 89.200iAC.) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ Proceae from Point/Station 110.000 to Point/Station 110.000 **i* CONFLUSNCB OF MINOR STRSAMS **** ' Along Main Stream number: 1 in normal stream number 1 Stream flom area = 89.200(AC.) Runoff from thie stream = 150.057(CFS) Time of concentration = 30.36 min. ~ Rainfall intensity = 1.891(in/Hr) 1 ++~+++++++++++++++++++++++t+++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 108.000 to Point/Station 109.000 **** INITIAL AREA SVALUATION *+** ~ ~'~ ~ Zo8 Along Main Stream number: 1 in noz~aal stream number 2 Stream flow area = 15.500(Ac.) ~ Runoff from this stream = 30.081(CFS) Time of concentration = 21.46 min. Rainfall inteneity = 2.289(In/Hr) ~ Su~nary of stream data: Stream Flom rate TC Rainfall intenaity No. (CFS) (min) (In/Hr) 1 150.057 30.36 1.891 I 2 30.081 21.46 2,2g9 L~argest stream flow hae longer time of concentration 150.057 + sum of ~ Qb Ia/ib 30.081 * 0.826 = 24.853 Qp = 174.910 ~ Total of 2 streama to confluence: Flow rates before confluence point: 150.057 30.081 ~ Area of streame before confluence: 89.200 15.500 Results of confluence: ' Total flow rate = 174.910(CPS) Time of concentration = 30.362 min. Bffective stream area after confluence = 104.700(AC.) ~ +++++~+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 110.000 to Point/Station 123.000 '*+* NATURAI, CHANNBL TIMS + SUBARSA FLOW ADDITION **** , Top of natural channel elevation = 1087.500(Ft.) Bnd of natural channel elevation = 1083.500(Ft.) ~ Length of natural channel = 675.000(Ft.) Sstimated mean flow rate at midpoint of channel = 189.778(CFS) Natural valley channel type used ~ L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(English Units)".352)(slope"0.5) velocity using mean channel flow = 4.44(Ft/s) ~ Correction to map slope uaed on extremely rugged channels with drops and waterfalls (Plate D-6.2) ~ Normal channel elope = 0.0059 Corrected/adjusted channel slope = 0.0059 Travel time = 2.53 min. TC = 32.89 min. Adding area flow to channel UNDSVSLOPBD (poor cover) subarea Runoff Coefficient = 0.745 ~ Decimal fraction soil Decimal fraction soil Decimal fraction soil ~ Decimal fraction soil RI index for soil(AMC ~ Pervious area fraction group A = 0.000 group B = 1.000 group C = 0.000 group D = 0.000 2) = 78.00 = 1.000; Impervious fraction = 0.000 tr v~ 2a9 ~' Rainfall intensity = 1.809(In/Hr) for a 100.0 year stoxm Subarea runoff = 23.997(CFS) for 17.800(Ac.) ~ Total runoff = 198.907(CFS) Total area = 122.500(Ac.) II ~ +++++++++++++++++++t++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 123.000 to Point/Station 123.000 *~** CONFLUSNCB OF MAIN STR$AMS **** ~ The following data inaide Main Stream is listed: In Main Stream number: 1 Stream flow area = 122.500(Ac.) ~ Runoff from this stream = 198.907(CFS) Time of concentration = 32.89 min. Rainfall intenaity = 1.809(In/Hr) ~ Program is now starting with Main Stream No. 2 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ Process from Point/Station 111.000 to Point/Station 112.000 **** INITIAL ARSA SVALUATION **** ~ Initial area flom distance = 500.000(Ft.) Top (of initial area) elevation = 1143.000(Ft.) Bottom (of initial area) elevation = 1135.300(Ft.) ' Difference in elevation = 7.700(Ft.) Slope = 0.01540 s(percent)= 1.54 TC = k(0.530)*[(length"3)/(elevation change)]"0.2 Initial area time of concentratioa = 14.668 min. ~ Rainfall intensity = 2.821(In/Hr) for a 100.0 year etorm UNDBVSLOPBD (poor cover) subarea Runoff Coefficient = 0.815 ~ Decimal fraction soil group A= 0.000 Decimal fraction soil group S= 0.500 Decimal fraction soil group C= 0.500 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 82.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Initial subarea runoff = 23.004(CFS) ~ Total initial stream area = 10.000(Ac.) Pezvious area fraction = 1.000 ~ +++++++++++++++++++++++++++++~++++++++++++++++++++++++++++++++++++++++ Proceas from Point/Station 112.000 Co Point/Station 113.000 ~*** NATURAL CHANNBL TIMB + SUBARSA FLOW ADDITION **** ~ Top of natural channel elevation = 1135.300(Ft.) End of natural channel elevation = 1122.800(Ft.) ' Length of natural channel = 810.000(Ft.) Estimated mean flow rate at midpoint of channel = 44.858(CFS) , Natural valley channel type used L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(English Unita)".352)(slope"0.5) Velocity using mean channel flom = 4.66(Ft/s) ~ Correction to map slope used on extremely rugged channele with drops and waterfalis (Plate D-6.2) ~-~, ~ Noxmal channel slope = 0.0154 ~ zto Corrected/adjuated channel alope = 0.0154 Travel time = 2.90 min. TC = 17.56 min. r Adding area flow to channel ~ UNDSVSLOPBD (poor cover) subarea Runoff Coefficient = 0.80'l Decimal fraction soil group A= 0.000 ~ Decimal fraction soil group 8= 0.500 Decimal fraction soil group C= 0.500 Decimal fraction soil group D= 0.000 RI index for soiltAMC 2) = 82.00 ~ ~. Pexvious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intenaity = 2.555(In/Hr) for a 100.0 year stozm Subarea runoff = 39.199(CFS) for 19.000(AC.) ~ Total runoff = 62.203(CFS) Total area = 29.000(Ac.) ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 113.000 to Point/Station 114.000 **** NATURAL CHANNSL TIMB + SUBAREA FLOW ADDITI013 ***~ ~ Top of natural channel elevation = 1122.800(Ft.) Bnd of natural channel elevation = 1111.000(Ft.) Length of natural channel = 1050.000(Ft.) ~ Esstimated mean flow rate at midpoint of channel = 82.580(CFS) Natural valley channel type used L.A. County flood control district foxmula for channel velocity: ~ Velocity(ft/s) _ (7 + 8(q(8nglieh Units)".352)(aiope"0.5) Velocity using mean channel flom = 4.75(Ft/s) ~ Correction to map slope uaed on extremely rugged channels with drops and waterfalls (Plate D-6.2) Nornial channel slope = 0.0112 ~ Corrected/adjusted channel alope = 0.0112 Travel time = 3.68 min. TC = 21.25 mia. ~ Adding area flow to channel UND$VBLOP$D (poor cover) subarea Runoff Coefficient = 0.774 ~ Decimal fraction soil group A= 0.000 Decimal fraction soil group 8= 1.000 _ Decimai fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impexvious fraction = 0.000 Rainfall intensity = 2.301(In/Hr) for a 100.0 year atoxm ~ Subarea runoff = 33.820(CFS) for 19.000(Ac.) Total runoff = 96.023(CFS) Total area = 48.000(Ac.) ~ +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++~ Process from Point/Station 114.000 to Point/Station 114.000 **** CONFLUBNCS OF MINOR STRBAMS **** ~ Along Main Stream number: 2 in noxmal etream number 1 Stream flow area = 48.000(Ac.) ~ Runoff from this atream = 96.023(CFS) ~ Z 1~ ~ Time of concentration = 21.25 min. Rainfall intensity = 2.301(In/Hr) ' ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ , Process from Point/Station 115.000 to Point/Station 115.000 *~** USSR DBFINED FLOW INFORMATION AT A POINT **** ~ Rainfall intensity = 2.017(In/Hr) for a 100.0 year storm UNDSVSLOPBD (poor cover) subarea Runoff Coefficient = 0.813 Decimal fraction soil group A= 0.000 • ~ Decimal fraction soil group B= 0.000 Decimal fraction soil group C= 1.000 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 86.00 Pervious area fraction = 1.000; impervious fraction = 0.000 User specified values are as follows: TC = 27.00 min. Rain intensity = 2.02(In/Hr) ~ Total area = 469.20(AC.) Total runoff = 663.00(CFS) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 115.000 to Point/Station 116.000 **** IMPROVSD CHANNSL TRAVSL TIMB **** ' Upstream point elevation = 1133.000(Ft.) Downatream point elevation = 1306.500(Ft.) Channel length thru subarea = 1960.000(Ft.) ~ Channel base width = 10.000(Ft.) Slope or 'Z' of left channel bank = 4.000 Slope or 'Z' of right channel bank = 3.000 ~ Sstimated mean flow rate at midpoint of channel = 677.272(CFS) Manning~a 'N' = 0.030 Maximum depth of channel = 7.000(Ft.) Flow(q) thru subarea = 677.272(CFS) ~ Depth of flow = 3.319(Ft.), Average velocity = 9.442(Ft/s) Channel flow top width = 33.230(Ft.) Flow Velocity = 9.44(Ft/s) ~ Travel time = 3.46 min. Time of concentration = 30.46 min. ~ Sub-Channel No. 1 Critical depth = 3.531(Ft.) ' ' ' Critical flow top width = 34.719(Ft.) ' ' ' Critical flow velocity= 8.578(Ft/s) ' ' ' Critical flow area = 78.957(Sq.Ft) , Adding area flow to channel UNDSVBLOPSD (poor cover) subarea ' Runoff Coefficient = 0.782 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 0.450 Decimal fraction soil group C= 0.550 , Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 82.40 Pervious area fraction = 1.000; Impervious fraction = 0.000 ~ Rainfall intensity = 1.887(In/Hr) for a 100.0 year etorm Subarea runoff = 29.815(CFS) for 20.200(Ac.) Total runoff = 692.815(CFS) Total area = 489.400(AC.) p~ ~ Yv 2l2 , ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ Proceas from Point/Station 116.000 to Point/Station 116.000 **** CONFLUSNCS OF MINOR STREAMS ***• , Along Main Stream number: 2 in normal stream number 2 Stream flow area = 489.400(Ac.) Runoff from this atream = 692.815(CFS) Time of concentration = 30.46 min. ' Rainfall intensity = 1.887(In/Hr) Summa=y of stream data: ' Stream Flow rate TC Rainfall intenaity No. (CFS) (min) (In/Hr) LJ ~ 1 2 Largest 4P = 4P 96.023 21.25 692.815 30.46 2.301 1.887 time of concentration ~ ~ ~ , ~ ~ ~ ' , ~ stream flow has longer 692.815 + sum of Qb Ia/Ib 96.023 * 0.820 = 771.580 78.765 Total of 2 streams to confluence: Flom ratea before confluence point: 96.023 692.815 Area of streams before confluence: 48.000 489.400 Reaults of confluence: Total flow rate = 771.580(CFS) Time of concentration = 30.460 min. Effective etream area after confluence = 537.400(Ac.) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Proceae from Point/Station 116.000 to Point/Station 123.000 **** IMPROV~ CHANNSL TRAVSL TIMB **** Upatream point elevation = 1106.500(Ft.) Downatream point elevation ~ 1083.500(Ft.) Channel length thru subarea = 1970.000(Ft.? Channel base width = 25.000(Ft.) Slope or ~Z~ of left channel bank = 15.000 Slope or 'Z' of right channel bank = 2.000 8etimated mean flow rate at midpoint of channel = 779.046(CFS) Manning'e 'N' = 0.030 Maximum depth of channel = 2.500(Ft.) Flow(q) thru subarea = 779.046(CFS) Depth of flow = 2.352(Ft.), Average velocity = 7.361(Ft/s) Channel flow top midth = 64.988(Ft.) Flom velocity = 7.36(Ft/s) Travel time = 4.46 min. Time of concentration = 34.92 min. Sub-Channel No. 1 Critical depth = 2.375(Ft.) ~ ~ ' Critical flow top width = 65.375(Ft.) ~ ~ ~ Critical flom velocity= 7.259(Ft/s) ~ ~ ' Critical flow area = 107.320(Sq.Ft) ~ "L(3 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 1.751(In/Hr) for a 100.0 year etorm Subarea runoff = 13.490(CFS) for 10.400(Ac.) Total runoff = 785.070(CFS) Total area = 547.800(AC.) Adding area flow to channel UNDSVSLOPSD (poor cover) subarea Runoff Coefficient = 0.741 ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ Process from Point/Station 123.000 to Point/Station 123.000 * *+* CONFLiJSNC$ OF MAIN STR.SAMS * * * * The following data inside Main Stream is liated: , In Main Stream number: 2 Stream flow area = 547.800(AC.) Runoff from this atream = 785.070(CFS) ~ Time of concentration = 34.92 min. Rainfall intensity = 1.751(In/Hr) Program is now atarting with Main Stream No. 3 ~ ~ ~ ~ ~ ~ ~ ~ ~ , ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 117.000 to Point/Station 117.000 **** USSR DSFINSD FLOW INPORMATION AT A POINT **+'• Rainfall intensity = 2.617(In/Hr) for a 100.0 year etozm SINGLS FAMILY (1/4 Acre Lot) Runoff Coefficient = 0.771 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C~ 0.000 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 56.00 Pervious area fraction = 0.500; Impervious fraction = 0.500 User apecified valuea are as follows: TC = 16.82 min. Rain intensity = 2.62(In/Hr) Total area = 62.70(AC.) Total runoff = 129.00(CFS) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Proceae from Point/Station 117.000 to Point/Station 118.000 +~** NATURAL CHANNSL TIMS + SUBARSA FLOW ADDITION **** Top of natural channel elevation = 1118.000(Ft.) End of natural channel elevation = 1101.000(Ft.) Length of natural channel = 790.000(Ft.) Eatimated mean flow rate at midpoint of channel = 138.258(CFS) Natural valley channel type used L.A. County flood control district foxmula for channel velocity: Velocity(ft/s) _ (7 + 8(q(8nglish Units)".352)(slope"0.5) Velocity ueing mean channel flow = 7.68(Ft/s) ~ Correction to map slope uaed on extremely rugged channels with ~, z~~ , drope and waterfalls (Plate D-6.2) Normal channel elope = 0.0215 , Corrected/adjusted channel slope = 0.0215 Travel time = 1.71 min. TC = 18.53 min. , Adding area flow to channel UNDSVSLOPBD (poor cover) subarea , Runoff Coefficient = 0.782 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 ' ' Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) 78.00 Pervious area fraction ~ 1.000; Impervious fraction = 0.000 ~ Rainfall intensity = 2.480(In/Hr) for a 100.0 year atorm Subarea runoff = 17.447(CFS) for 9.000(Ac.) Total runoff = 146.447(CFS) Total area = 71.700(AC.) ~ +++++++++++++++++++++++++++++++++++++~++++++++++++++++++++++++++++++++ Procesa from Point/Station 118.000 to Point/Station 121.000 , **** NATURAL CHANNSL TIMB + SIIBARSA FLOW ADDITION **+* Top of natural channel elevation = 1101.000(Ft.) ~ Snd of natural channel elevation = 1090.500(Ft.) Length of natural channel = 980.000(Ft.) Sstimated mean flow rate at midpoint of channel = 156.251(CFS) ~ Natural valley channel type used L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(8nglieh Unita)".352)(slope"0.5) ' Velocity using mean channel flow = 5.63(Ft/s) Correction to map elope used on extremely xvgged channele with drops and waterfalla (Plate D-6.2) ' Normal channel slope = 0.0107 Corrected/adjusted channel slope = 0.0107 Travel time = 2.90 min. TC = 21.44 min. ' Adding area flow to channel , UNDSV8LOP8D (poor cover) subarea Runoff Coefficient = 0.773 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 , Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 78.00 ' Pervious area fraction = 1.000; impervious fraction = 0.000 Rainfall intensity = 2.290(In/Hr) for a 100.0 year stoxm Subarea runoff = 16.992(CPS) for 9.600(Ac.) Total runoff = 163.439(CFS) Total area = 81.300(Ac.) ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++f+++++++++++++++++ ~ Process from Point/Station 121.000 to Point/Station 121.000 **** CONFLUSNCB OF MINOR STRBAMS **** ' Along Main Stream number: 3 in normal stream number 1 2~ 215 , Stream flow area = 81.300(Ac.) Runoff from this stream = 163.439(CFS) , Time of concentration = 21.44 min. Rainfall intensity = 2.290(in/Hr) ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Procese from Point/Station 119.000 to Point/Station 120.000 **** INITIAL ARBA SVALUATION *+** ~ Initial area flow distance = 920.000(Ft.) Top (of initial area) elevation = 1160.000(Ft.) • , Bottom (of initial area) elevation = 1094.000(Ft.) Difference in elevation = 66.000(Ft.) Slope = 0.07174 s(percent)= 7.17 ~ TC = k(0.480)*[(length"3)/(elevation change))"0.2 Initial area time of concentration = 12.462 min. Rainfall inteneity = 3.086(In/Hr) for a 100.0 year etorm SINGLS FAMILY (1 Acre Lot) ' Runoff Coefficient = 0.718 Decimal fraction soil group A= 0.000 Decimal fraction soil group 8= 1.000 , Decimal fraction soil group C= 0.000 Decimal fraction soil group D a 0.000 RI index for soiliAMC 2) ffi 56.00 ~ Pervious area fraction = 0.800; Impervious fraction = 0.200 Initial subarea runoff = 7.085(CFS) Total initial stream area = 3.200(Ac.) Pervioua area fraction = 0.800 ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ , Proceae from Point/Station 120.000 to Point/Station 121.000 **** NATURAL CHANNSL TIMS + SUBARfiA FLOW ADDITION •**• Top of natural channel elevation = 1094.000(Ft.) ' Snd of natural channel elevation = 1090.500(Ft.) Length of natural channel = 560.000(Ft.) $stimatefl mean flow rate at midpoint of channel = 9.520(CFS) , Natural valley channel type used L.A. County flood control district formula for channel velocity: ' Velocity(ft/s) _ (7 + 8(q(Bnglish Units)".352)(slope"0.5) Velocity using mean channel flom = 1.95(Ft/s) Correction to map slope ueed on extremely rugged channels with ' drops and waterfalla (Plate D-6.2) Normal channei slope = 0.0063 Corrected/adjuated channel slope = 0.0063 ~ Travel time = 4.78 min. TC = 17.25 min. Adding area flow to channel ~ UNDBVSLOPBD (poor cover) subarea Runoff Coefficient = 0.786 Decimal fraction soil group A= 0.000 , Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 78.00 ~~ ~ , ~ , ~ ' , ~ , ~ , ' ' ' ~ ' ~ ~ ~ Pervious area fraction = 1.000; impervious fraction = 0.000 Rainfall intensity = 2.581(in/Hr) for a 100.0 year storm Subarea runoff = 4.460(CFS).for 2.200(AC.) Total runoff = 11.545(CFS) Total area = 5.400(Ac.) 21~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++~+++++++++++++ Process from Point/Station 121.000 to Point/Station 121.000 •*** CONFLUBNCB OF MINOR STREAMS **** Along Main Stream number: 3 in normal atream number 2 Stream flow area = 5.400(AC.) • Runoff from this etream = 11.545(CFS) Time of concentration = 17.25 min. Rainfall inteneity = 2.581(In/Hr) Suartnary of stream data: Stream Flow rate TC No. (CFS) (min) Rainfall Intensity (In/Hr) 1 163.439 21.44 2.290 2 11.545 17.25 2.581 L~argest stream flow has longer time of concentration 163.439 + sum of Qb Ia/ib 11.545 * 0.887 = 10.243 Qp = 173.682 Total of 2 streams to confluence: Flom ratea before confluence point: 163.439 11.545 Area of atreams before confluence: 81.300 5.400 Resulte of confluence: Total flow rate = 173.682(CFS) Time of concentration = 21.438 min. Sffective stream area after confluence = 86.700(Ac.) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Procesa from Point/Station 121.000 to Point/Station 122.000 **** NATURAL CHANNSL TIMB + SUBAREA FLOW ADDITION *t+• Top of natural channel elevation = 1090.500(Ft.) Snd of natural channel elevation = 1087.100(Ft.) Length of natural channel = 740.000(Ft.) Bstimated mean flow rate at midpoint of channel = 192.512(CPS) Natural valley channel type used L.A. County flood control district forn~ula for channel velocity: Velocity(ft/s) _ (7 + 8(q($nglish Units)".352)(slope"0.5) Velocity using mean channel flow = 3.93(Ft/s) Correction to map slope used on extremely rugged channels with drops and waterfalls (Plate D-6.2) Normal channel slope = 0.0046 Corrected/adjueted channel slope = 0.0046 Travel time = 3.14 min. TC = 24.58 min. za , Z~~ , Adding area flow to channel UNDSVBLOPED (poor cover) subarea Runoff Coefficient = 0.765 Decimal fraction soil group A= 0.000 , Decimal fraction soil group B= 1.000 Decimal fraction eoil group C= 0.000 Decimal fraction soil group D= 0.000 , RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impezvious fraction = 0.000 Rainfall intensity = 2.124(In/Hr) for a 100.0 year storm ' Subarea runoff = 30.531(CFS) for 18.800(AC.) Total runoff = 204.212(CFS) Total area = 105.500(Ac.) ' ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 122.000 to Point/Station 123.000 * rr++ Np,Tf7g,AL CHANNgL TIN~ + SUBAR$P, FLOW ADDITION **** ' Top of natural channel elevation = 1087.100(Ft.) Snd of natural channel elevation = 1083.500(Ft.) Length of natural channel = 1360.000(Ft.) ' Bstimated mean flow rate at midpoint of channel = 213.310(CFS) Natural valley channel type used ' L.A. County flood control district fozmula for channel velocity: Velocity(ft/s) _ (7 + 8(q(8nglish Units)".352)(slope"0.5) Velocity using mean channel flow = 3.08(Ft/s) , Correction to map slope used on extremely rugged channels with drops and waterfalls (Plate D-6.2) Normal channel slope = 0.0026 ~ Corrected/adjusted channel slope = 0.0026 Travel time = 7.36 min. TC = 31.94 min. ' Adding area flow to channel UNDEVBLOP~ (poor cover) aubarea Runoff Coefficient = 0.747 ' Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 ' Decimal fraction soil group D= 0.000 RI index for soiltAM1C 2) 78.00 Pervious area fraction = 1.000; is~ervious fraction = 0.000 ~ Rainfall intensity = 1.839(In/Hr) for a 100.0 year storm Subarea runoff = 12.915(CFS) for 9.400(AC.) Total runoff = 217.127(CFS) Total area = 114.900(AC.) ' +++++++++++++++++++++++++++++++++++++++++~++++++++++++++++++++++++++++ Proceas from Point/Station 123.000 to Point/Station 123.000 ' **** CONFLUSNCB OF MAIN STR$AMS **** The following data inside Main Stream is listed: In Main Stream number: 3 ~ Stream flow area = 114.900(AC.) Runoff from this stream = 217.127(CFS) Time of concentration = 31.94 min. ~~ ' Rainfall inteneity = 1.839(Ia/Hr) ' , ~I J ' ~ ~ C ~ ~ 1 ~ , ~ , , , , ~ ~ _ . ___ _ 2~$ Summary of stream data: Stream Flow rate TC No. (CFS) (min) 1 198.907 32.89 2 785.070 34.92 3 217.127 31.94 Largest stream flow has longer Qp = 785.070 + sum of Qb Ia/ib 198.907 * 0.968 = Qb Ia/ib 217.127 * 0.952 ~ Qp = 1184.275 Rainfall Intensity (In/Hr) 1.809 1.751 1.839 time of concentration 192.474 206.'732 Total of 3 main streame to confluence: Flow rates before confluence point: 198.907 785.070 217.127 Area of etreams before confluence: 122.500 547.800 114.900 Reaults of confluence: Total flow rate = 1184.275(CFS) Time of concentration = 34.920 min. Bffective stream area after confluence = 785.200(Ac.) ++++++++++++++++++++++++++~+++++++++++++++++++++++++++++++++++++++++++ Proces8 from Point/Station 123.000 to Point/Station 129.000 **~* IMPROVBD CHANNSL TRAVBL TIMB **** Upstream point elevation = 1083.500(Ft.) Downstream point elevation ~ 1061.500(Ft.) Channel length thru subarea = 910.000(Ft.) Channel base width = 4.000(Ft.) Slope or 'Z' of left channel barrk = 2.000 Slope or 'Z' of right channel bank = 2.000 8stimated mean flow rate at midpoint of channel = 1186.915(CFS) Manning's 'N' m 0.030 Maximum depth of channel = 10.000(Ft.) Flow(q) thru subarea = 1186.915(CFS) Depth of flow = 5.310(Pt.), Average velocity = 15.291(Ft/s) Channel flOw tOp width = 25.238(Ft.) Flow Velocity = 15.29(Ft/s) Travel time = 0.99 min. Time of concentration = 35.91 min. Sub-Channel No. 1 Critical depth = 6.438(Ft.) ~ ~ ~ Critical flow top width = 29.750(Ft.) ~ ~ ~ Critical flow velocity= 10.926(Ft/s) ~ ~ ' Critical flow area = 108.633(Sq.Ft) Adding area flow to channel UNDBVSLOPSD (poor cover) subarea Runoff Coefficient = 0.739 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 ~ z~y Decimal fraction soil Decimal fraction soil RI index for soil(AMC Pervious area fraction Rainfall intensity = Subarea runoff = Total runoff = 1188. group C = 0.000 group D = 0.000 2) = 78.00 = 1.000; Impervious fraction = 0.000 1.724(In/Hr) for a 100.0 year storni 4.458(CFS) for 3.500(AC.) 734(CFS) Total area = 788.700(AC.) +++++++~++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Procese from Point/Station 129.000 to Point/Station 129.000 *'** CONFLUSNCB OF MAIN STRBAMS **** The followi In Main Str Stream flow g data inside Main Stream is lie am number: 1 area = 788.700(Ac.) Runoff from this stream = 1188.734(CFS) Time of concentration = 35.91 min. Rainfall intenaity = 1.724(In/Hr) Program is now etarting with Main Stream No. 2 +++++++++++++++++~++++++++++++++++++++++++++++++++++++++++++++++++++++ Procesa from Point/Station 119.000 to Point/Station 124.000 •*** INITIAL ARBA SVALUATION **** Initial area flow dietance = 860.000(Ft.) Top (of initial area) elevation = 1160.000(Ft.) Eottom (of initiai area) elevation = 1088.o0o(Ft.> Difference in elevation = 72.000(Pt.) Slope = 0.08372 s(percent)= 8.37 TC = k(0.530)*[(length"3)/(elevation change))"0.2 Initial area time of concentration = 12.987 min. Rainfall intensity = 3.016(in/Hr) for a 100.0 year stoxm UNDRVfiLOPSD (poor cover) subarea Runoff Coefficient = 0.800 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 RS index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Initial subarea runoff a 7.724(CFS) Total initial stream area = 3.200(AC.) Pervious area fraction = 1.000 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 124.000 to Point/Station 125.000 **** IMPROVSD CHANNSL TRAVSL TIMB *+** Upstream point elevation = 1088.000lFt.) Downetream point elevation = 1079.000(Ft.) Channel length thru subarea = 390.000(Ft.) Channel base width = 17.000(Pt.) Slope or ~Z' of left channel bank = 2.000 Slope or 'Z' of right channel bank = 5.000 8etimated mean flow rate at midpoint of channel = 8.690(CFS) Manning's 'N' = 0.030 ~-~ Maximum depth of channel = 1.000(Ft.) i ~° Flow(q) thru subarea = 8.690(CFS) ~ Depth of flom = 0.198(Ft.), Average velocity = 2.484(Ft/s) Channel flow top width = 18.384(Ft.) FlOw Velocity = 2.48(Ft/s) Travel time = 2.62 min. Time of concentration = 15.60 min. , Sub-Channel No. 1 Critical depth = 0.199(Ft.) , ' ' ' Critical flow top width = 18.395(Ft.) ~ ' ~ Critical flow velocity= 2.465(Ft/s) ' ' ' Critical flow area = 3.526(Sq.Ft) , Adding area flow to channel UNDSVBLOPSD (poor cover) subarea Runoff Coefficient = 0.791 , Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 1 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) 78.00 Penrious area fraction = 1.000; Impezvious fraction = 0.000 Rainfall intensity = 2.727(in/Hr) for a 100.0 year atozm , Subarea zunoff.= 1.725(CFS) for 0.800(AC.) Total runoff = 9.450(CFS) Total area = 4.000(Ac.) , ++++++~+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Procesa from Point/Station 125.000 to Point/Station 125.000 **** CONFLUSNCS OF MINOR STRSAMS **** , Along Main Stream number: 2 in nozmal stream number 1 Stream flow area = 4.000(Ac.) ' Runoff from this stream = 9.450(CFS) Time of concentration = 15.60 min. Rainfall intensity = 2.727(In/Hr) ' +++++++++++++++++++~++++++++++++++++++++++++++++++++++++++++++++++++++ Proceae from Point/Station 125.000 to Point/Station 125.000 , **** USSR DBFINBD FLOW INFORMATION AT A POINT **** Rainfall intenaity = 2.104(In/Hr) for a 100.0 year storm ' SINGLB FAMILY (1/4 Acre Lot) Runoff Coefficient = 0.781 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 0.400 ' Decimal fraction soil group C= 0.600 Decimal fraction soil group D= 0.000. RI index for soil(AMC 2) = 63.80 , Pervious area fraction = 0.500; Impervious fraction = 0.500 User specified values are as follows: TC = 25.00 min. Rain intensity = 2.10(In/Hr) , Total area = 118.00(AC.) Total xunoff = 293.20(CFS) +++++++++++++++++++++~++++++++++++++++++++++++++++++++++++t++++t++++++ ' Procesa from Point/Station 125.000 to Point/Station 125.000 **** CONFLUBNCB OF MINOR STRBAMS **** ' Along Main Stream number: 2 in normal stream number 2 ~ ~ , , 1 ' ~ ' , ' ~ ' 1 , ' ' ' ' ' ' Stream flow area = 118.000(Ac.) Runoff from this stream = 293.200(CFS) Time of concentration = 25:00 mia. Rainfall intensity = 2.104(Yn/Hr) Sunrtnary of stream data: Stream Flow rate TC No. (CFS) (min) 1 2 Largest QP = QP Rainfall Zntensity (In/Hr) 9.450 15.60 2.727 293.200 25.00 2.104 stream flow has longer time of concentration 293.200 + Qb 9.450 300.492 sum of Ia/Ib 0.772 = 7.292 Total of 2 streams to confluence: Flow rates before confluence point: 9.450 293.200 Area of etreams before confluence: 4.000 118.000 Results of confluence: Totai fiow rate = 300.492(CFS) Time of concentration = 25.000 min. Bffective stream area after confluence = 122.000(AC.) 22~ +++++++++++++++++++++++++++++++++++++++++++++++++~++++++++++++++++++++ Procesa from Point/Station 125.000 to Point/Station 126.000 **** IMPROVSD CHANNBL TRAVSL TIMB **** Upatream point elevation = 1079.000(Ft.) Downstream point elevation = 1073.700(Ft.) Channel length thru subarea = 870.000(Ft.) Channel base width = 5.000(Ft.) Slope or ~Z~ of left channel bank = 3.000 Slope or 'Z' of right channel bank = 6.000 Bstimated mean flow rate at midpoint of channel = 319.211(CFS) Manning~s 'N~ = 0.030 Maximum depth of channel = 6.000(Ft.) Flow(q) thru subarea = 319.211(CFS) Depth of flow = 3.059(Ft.), Average velocity = 5.561(Ft/s) Channel flow top width = 32.532(Ft.) Flow Velocity = 5.56(Pt/s) Travel time = 2.61 min. Time of concentration = 27.61 min. Sub-Channel No. 1 Critical depth = 2.656(Ft.) ' ~ ' Critical flow top width = 28.906(Ft.) ' ' ' Critical flow velocity= 7.089(Ft/e) ' ~ ~ Critical flow area = 45.032(Sq.Ft) Adding area flow to channel UNDEVfiLOPBD (poor cover) aubarea Runoff Coefficient = 0.757 Decimal fraction soil group A= 0.000 Decimal fraction eoii group B= 1.000 Decimal fraction soil group C= 0.000 Z~ ~ ' ' ~ ' ' C' ' , 222 Decimal fraction soil RI index for soil(AMC Pervious area fractio Rainfall intensity = Subarea runoff = Total runoff = 323 group D = 0.000 2) = 78.00 n= 1.000; Impervious fraction = 0.000 1.992(In/Hr) for a 100.0 year storm 22.927(CFS) for 15.200(Ac.) .419(CFS) Total area = 137.200(AC.) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Proceas from Point/Station 126.000 to Point/Station 127.000 **** IMPROVSD CHANNSL TRAVBL TIMB **** Upstream point elevation = 1073.700{Ft.) Downstream point elevation = 1072.300(Ft.) Channel length thru subarea = 590.000(Ft.) Channel base width = 5.000(Ft.) Slope or ~Z~ of left channel bank = 3.000 Slope or 'Z' of right channel bank = 6.000 Bstimated mean flow rate at midpoint of channel = 341.099(CFS) Manning's 'N' = 0.030 Maximum depth of channel = 6.000(Ft.) Flow(q) thru subarea = 341.099(CFS) Depth of flow = 3.846(Ft.), Average velocity ~ 3.976(Ft/s) Channel flow top width = 39.613(Ft.) Flow Velocity = 3.98(Ft/s) Travel time = 2.47 min. Time of concentration = 30.08 min. ' Sub-Channel No. 1 Critical depth = ~ ~ ' Critical flow ~ ~ ~ Critical flow ~ ' ' Critical flow ' ' ' ' ' , , ~ ' 29.750(Ft.) 7.139(Ft/s) .781(Sq.Ft) Adding area flow to channel UNDBVELOPSD (poor cover) aubarea Runoff Coefficient = 0.751 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 1.900(In/Hr) for a 100.0 year storm Subarea runoff = 21.418(CFS) for 15.000(A152.200(AC.) Total runoff = 344.837(CFS) Total area = ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 127.000 to Point/Station 128.000 **** IMPROVBD CHANNBL TRAVSL TIMB **** Upatream point elevation = 1072.300(Ft.) Downstream point elevation = 1068.900(Ft.) Channel length thru subarea = 620.000(Ft.) Channel base width = 20.000(Ft.) Slope or ~Z~ of left channel bank = 4.000 Slope or ~Z' of right channel bank = 40.000 Sstimated mean flom rate at midpoint of channel = 359.564(CFS) Manning's 'N' = 0.030 Maximum depth of channel = 6.000(Ft.) ~ 2.750(Ft.) top width = velocity= area = 47 ~ ~ 'l ll Flow(q) thru subarea = 359.564(CFS) Depth of flow = 1.690(Ft.), Average velocity = 3.721(Ft/s) Channel flow top width = 94.361(Ft.) Flow Velocity = 3.72(Ft/s) Travel time = 2.78 min. Time of concentration = 32.86 min. Sub-Channel No. 1 Critical depth = 1.367(Ft.) ' ' ' Critical flow top width = 60.156(Ft.) ' ' ' Critical flow velocity= 5.252(Ft/s) ~ ~ ~ Critical flow area = 68.466(Sq.Ft) , Adding area flow to channel UNDSVBLOPSD (poor cover) subarea Runoff Coefficient = 0.745 , Decimal fraction soil group A= 0.000 Decimal fraction soil group 8= 1.000 Decimal fraction soil group C= 0.000 ' Decimal fraction soil group D e 0.000 RI index for soil(AMC 2) 78.00 Pervious area fraction = 1.000; Impervioue fraction Rainfall intenaity = 1.810(In/Hr) for a 100.0 ~ Subarea runoff = 17.538(CFS) for 13.000(AC.) Total ninoff = 362.376(CFS) Total area = 165 , ' ' ' ' ' ~ ' ~ r- ~ L~ ~I, y = 0.000 year atoxm 200(AC.? ?23 ++++++++++++++~+++++++++++++++++++++++++++++++++++++++++++++++++~+++++ Process from Point/Station 128.000 to Point/Station 129.000 **** IMPROVSD CHANNSL TRAVBL TIMS **** Upstream point elevatioa = 1068.900(Ft.) Downetream point elevation = 1061.500(Ft.) Channel length thru subarea = 750.000(Ft.) Channel base width = 10.000(Ft.) Slope or 'Z' of left channel bank = 2.000 Slope or 'Z' of right channel bank = 2.000 Bstimated mean flow rate at midpoint of channel = 377.731(CFS) Manning's 'N~ = 0.030 Maximum depth of channel = 6.000(Ft.) Flow(q) thru aubarea = 377.731(CFS) Depth of flow = 2.986(Ft.), Average velocity = 7.920(Ft/s) Channel flow top width = 21.944(Ft.) Fiow Velocity = 7.92(Ft/e) Travel time = 1.58 min. Time of concentration = 34.44 min. Sub-Channel No. i Critical depth = 2.906(Ft.) ' ' ' Critical flow top width = 21.625(Ft.) ' ' ' Critical flow velocity= 8.220(Ft/s) ' ' ' Critical flow area = 45.955(Sq.Ft) Adding area flow to channel UNDBVBLOPBD (poor cover) subarea Runoff Coefficient = 0.742 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 3~ ~ 27~(. Rainfall intenaity = 1.764(In/Hr) for a 100.0 year storm ~ Subarea runoff = 18.324(CFS) for 14.000(AC.) Total runoff = 380.700(CFS) Total area = 179.200(AC.) ' ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 129.000 to Point/Station 129.000 **** CONFLUBNCS OP MAIN STRBAMS *t** ~ The following data inside Main Stream is listed: In Main Stream number: 2 !~ ~ Stream flow area = 179.200(AC.) Runoff from this stream = 380.700(CFS) Time of concentration = 34.44 min. Rainfall inteneity = 1.764(In/Hr) ~ Program ie now starting with Main Stream No. 3 ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Procesa from Point/Station 129.000 to Point/Station 129.000 **** USER DBFINSD FIAW INFORMATION AT A POINT **+* ~ Rainfall intensity = 2.787(In/Hr) for a 100.0 year stoxm COrM~IBRCiAL subarea type Runoff Coefficient = 0.875 ~ Decimal fraction eoil group A a 0.000 Decimal fraction soil group B a 1.000 Decimal fraction soil group C= 0.000 ~ Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) 56.00 Pervious area fraction = 0.300; Impervious fraction = 0.900 User specified valuea are as follows: ~ TC = 15.00 min. Raia inteneity = 2.79(In/Hr) ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 129.000 to Point/Station 129.000 *t** CONFLUBNCS OF MAIN STRBAMS ***+ ~ The following data inaide Main Stream is lieted: In Main Stream number: 3 ~ Stream flow area = 87.000(AC.) Runoff from this stream s 108.000(CPS) Time of concentration = 15.00 min. ~ Rainfall inteneity = 2.787(In/Hr) Summazy of stream data: Stream Flow rate TC Rainfall Intenaity ~ No. (CFS) (min) (In/Hr) ~ 1 1188.734 35.91 1.724 2 380.700 34.44 1.764 3 108.000 15.00 2,7g7 ~ L~argest etream flow hae longer time of concentration = 1188.734 + sum of Qb Ia/Ib 380.700 * 0.977 = 372.013 ~ Qb Ia/Ib ~?/ Total area = 87.00(AC.) Total runoff = 108.00(CFS) II ~ 108.000 * 0.619 = 66.817 ' Qp = 1627.564 Total of 3 main streams to confluence: Flow rates before confluence point: I ' 1188.734 380.700 108.000 Area of atreams before confluence: 788.700 179.200 87.000 ' Results of confluence: I' Total flow rate = 1627.564(CFS) _ Time of concentration = 35.912 min. Bffective_atream area after confluence 1054.900(AC.) Bnd of computations, total etudy area = 1054.90 (Ac.) ' The following figures may be used for a unit hydrograph study of the same area. ' Area averaged pervious area fraction(Ap) = 0.840 Area averaged RI index number = 77.0 ' ~ ' ~ ~ ' , ~ , , ~ ~ 33 225 ' ~ f 1 i 1 1 i 1 1 1 1 1 1 1 1 ~ ~ ~ 3~ zs o ~ 25~ ~ Rivereide County Rational Hydrology Program CIVILCADD/CIVILDBSIGN Bngineeririg Software,(c) 1989 - 2001 Version 6.4 Rational Hydrology Study Date: 02/06/03 File:798SX.out ------------------------------------------------------------------------ ~~ TR 29798 BXISTING CONDITION INCLUDING OFF-SZTE (NO DSTSNTION) 100 YSAR STORM ' JN 32006 ------------------------------------------------------------------------ ******+** HydrolOgy Study COntrol InfOrfnation ********** ~ Bnglish (in-lb) Units used in input data file , ------------------------------------------------------------------------ Lohr & Associates, inc., Temecula, CA - S/N 773 ------------------------------------------------------------------------ ~ Rational Method Hydrology Program based on Rivereide County Flood Control & Water Conservation District 1978 hydrology manual ~ Stonn event (year) = 100.00 Antecedent Moisture Condition = 2 Standard intensity-duration curves data .(Plate D-4.1) ~ For the [ Murrieta,Ttnc,Rnch CaNorco ] area used. 10 year storm 10 minute intensity = 2.360(In/Hr) 10 year etorm 60 minute intensity = 0.880(In/Hr) ~ 100 year storm 10 minute intensity = 3.480(In/Hr) 100 year storm 60 minute intensity = 1.300(In/Hr) Stoxm event year = 300.0 ~ Calculated rainfall intensity data: 1 hour inteneity = 1.300(in/Hr) Slope of inteneity duration curve = 0.5500 ~ ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++t+++++++++++++++++ Process from Point/Station 100.000 to Point/Station 101.000 ~ **** INITIAL AR$P, SVALUATION **** Initial area flow distance = 765.000(Ft.) ~ Top (of initial area) elevation = 1084.000(Ft.) Bottom (of initial area) elevation = 1067.500(Ft.) Difference in elevation = 16.500(Ft.) Slope = 0.02157 stpercent>= 2.16 ~ TC = k(0.530)*[(length"3)/(elevation change)]"0.2 Initial area time of concentration = 16.255 min. Rainfall intensity = 2.666(In/Hr) for a 100.0 year stoxm ~ UNDSVSLOPi3D (poor cover) subarea Runoff Coefficient = 0.789 Decimal fraction aoil group A= 0.000 , Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 78.00 ~j~ Pervious area fraction = 1.000; Impervious fraction = 0.000 , 252 ~ Initial aubarea runoff = 21.029(CFS) ~ Total initial etream area = 10.000(Ac.) Pervious area fraction = 1.000 ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 101.000 to Point/Station 102.000 ***~ NATURAL CHANNSL TIMB + SUBAREA FLOW ADDITION ***+ ~ Top of natural channel elevation = 1067.500(Ft.) Snd of natural channel elevation = 1055.700(Ft.) Length of natural channel = 1255.000(Ft.) Bstimated mean flow rate at midpoint of channel = 37.643fCFS) ~' Natural valley channel type used ~ L.A. County flood control district forniula for channel velocity: Velocity(ft/s) _ (7 + 8(q(English Units)".352)(slope"0.5) Velocity using mean channel flow = 3.46(Ft/s) ~ Correction to map slope used on extremely xugged channels with drope and waterfalls (Plate D-6.2) Noxmal channel slope = 0.0094 ~ Corrected/adjusted channel slope = 0.0094 Travel time = 6.04 min. TC = 22.30 min. ~ Adding area flow to channel UNDBVSLOPSD (poor cover) subarea Runoff Coefficient = 0.771 ~, Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 ~' RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 2.241(In/Hr) for a 100.0 year stoxm ~ Subarea runoff = 27.283(CFS) for 15.800(Ac.) Total runoff = 48.312(CFS) Total area = 25.800(AC.) ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 102.000 to Point/Station 103.000. ~ +*** NATURAL CHANNBL TIMB + SUBARRA FLOW ADDITION **** Top of natural channel elevation = 1055.700(Ft.) 8nd of natural channel elevation = 1055.000(Ft.) ~ Length of natural channel = 370.000(Ft.) Eetimated mean flow rate at midpoint of channel = 66.102(CFS) Natural valley channel type used ~, L.A. County flood control district forn~ula for channel velocity: Velocity(ft/s) _ (7 + 8(q(English Unita)".352)(slope"0.5) Velocity using mean channel flow = 1.83(Ft/s) ~ Correction to map slope used on extremely rugged channels with drops and waterfalls (Plate D-6.2) ~ Normal channel slope = 0.0019 Corrected/adjusted channel elope = 0.0019 Travel time = 3.38 min. TC = 25.66 min. 3l~ ~ ~~ ~ ~ 253 ~ Adding area flow to channel UNDEVSIAPED (poor cover) subarea Runoff Coefficient = 0.762 Decimal fraction soil group A= 0.000 ~ Decimal fraction soil group B= 1.000 Decimal fraction eoil group C= 0.000 Decimal fraction soil group D= 0.000 ' RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 2.073(In/Hr) for a 100.0 year storm ~ Subarea runoff = 30.012(CFS) for 19.000(Ac.) Total runoff = 78.324(CFS) Total area = 44.800(Ac.) , ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 103.000 to Point/Station 104.000 ***'- NATURAL CHANNSL TIMB + SUHARBA FLOW ADDITION **** ~ Top of natural channel elevation = 1055.000(Ft.) - 8nd of natural channel elevation = 1051.600(Ft.) Length of natural channel = 720.000(Ft.) ~ Estimated mean flow rate at midpoint of channel = 94.059(CFS) Natural valley channel type used ~ L.A. County flood control district formula for channel velocity: velocity(ft/s) _ ('7 + S(q(Bnglish Unita)".352)(slope"0.5) Velocity using mean channel flow = 3.20(Ft/s) ~ Correction to map slope used on extremely xvgged channels mith drops and waterfalls (Plate D-6.2) Noxmal channel slope = 0.0047 ~ Corrected/adjusted channel slope = 0.0047 Travel time = 3.75 min. TC = 29.42 min. ~ Adding area flow to channel UNDBVSLOPBD (poor cover) aubarea Runoff Coefficient = 0.753 ~ Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 1.924(In/Hr) for a 100.0 year storni ~; Subarea runoff = 26.069(CFS) for 18.OOOtAC.) Total runoff = 304.393(CFS) Total area = 62.800(AC.) I ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Procesa from Point/Station 104.000 to Point/Station 105.000 ***• NATURAL CHANNBL TIMB + SUHARBA FLOW ADDITION **** ~ Top of natural channel elevation = 1051.600(Ft.) Snd of natural channel elevation = 1050.600(Ft.) ~ Length of natural channel = 400.000(Ft.) Satimated mean flow rate at midpoint of channel = 121.348(CFS) ~ Natural valley channel type used 3~ ~ Zy~ L.A. County flood control district fozmula for channel velocity: ~ Velocity(ft/e) _ (7 + 8(q(gngliah Unite)~.352)(slope"0.5) Velocity using mean channel £low = 2.52(Ft/s) Correction to map slope used on extremely rugged channels with ~ drops and waterfalls (Plate D-6.2) Normal channel slope = 0.0025 Corrected/adjusted channel slope = 0.0025 Travel time = 2.65 min. TC = 32.07 min. ~ Adding area flow to channel UNDSVSLOPED (poor cover) subarea Runoff Coefficient = 0.747 Decimal fraction soil group A= 0.000 ' Decimal fraction soil group H= 1.000 Decimal fraction soil group C= 0.000 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 78.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intensity = 1.835(In/Hr) for a 100.0 year etorm Subarea runoff = 27.954(CFS) for 20.400(Ac.) ~ Total runoff = 132.347(CFS) Total area = 83.200(Ac.) ~ ++++++++~+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 105.000 to Point/Station 106.000 **** NATURAL CHANNSL TIMS + SUBARSA FIAW ADDITION **** Top of natural channel elevation = 1050.600(Ft.) ~ Snd of natural channel elevation = 1048.000(Ft.) Length of natural channel = 650.000(Ft.) ~ Batimated mean flow rate at midpoint of channel = 149.367(CFS) Natural valley channel type used ~ L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(Snglish Units)".352)(slope"0.5) Velocity using mean channel flow = 3.39(Ft/s) Correction to map slope used on extremely rugged channels with drops and waterfalla (Plate D-6.2) Normal channel slope = 0.0040 ~ Corrected/adjusted channel slope = 0.0040 Travel time = 3.20 min. TC = 35.27 min. Adding area flow to channel UNDSVELOPSD (poor cover) subarea . Runoff Coefficient = 0.758 ~; Decimal fraction soil group A= 0.000 Decimal fraction soil group 8= 0.700 Decimal fraction soil group C= 0.300 Decimal fraction soil group D= 0.000 ~, RI index for soil(AMC 2) = 80.40 Pervious area fraction = 1.000; Impervious fraction ~ 0.000 Rainfall intensity = 1.741(In/Hr) for a 100.0 year storm ~ Subarea rursoff = 28.261(CFS) for 21.400(Ac.) Total runoff = 160.608(CFS) Total area = 104.600(AC.) ~ 30 25G ~ Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 82.00 ' Pervious area fraction = 1.000; Impesvious fraction = 0.000 Rainfall intensity = 1.668(In/Hr) for a 100.0 year storm Subarea runoff = 15.328(CFS) for 12.000(Ac.) ~ Total runoff = 1642.988(CFS) Total area = 1066.900(AC.) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ Proceas from Point/Station 108.000 to Point/Station 108.000 **** CONFLUENCB OF MINOR STR8AM5 **** ~ Along Main Stream number: 1 in noxmal etream number 2 Stream flow area = 1066.900(AC.) - Runoff from thie etream = 1642.888(CFS) t Time of concentration = 38.13 min. Rainfall intensity = 1.668(In/Hr) - Summary of stream data: , Stream Flow rate TC Rainfall Intenaity No. (CFS) (min) (In/Hr) , 1 160.608 35.27 1.741 2 1642.888 38.13 1.668 ' Largeat stream flow has longer time of concentration Qp = 1642.888 + sum of Qb Ia/ib 160.608 * 0.958 = 153.873 Qp = 1796.760 ~~ Total of 2 streams to confluence: Flow rates before confluence point: ~ 160.608 1642.888 Area of streame before confluence: 104.600 1066.900 ~ Results of confluence: Total flow rate = 1796.760(CFS) Time of concentration = 38.125 min. ~ Sffective stream area after confluence = 1171.500(Ac.) ~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 108.000 to Point/Station 109.000 **+'* IMPROVSD CHANNSL TRAVSL TIMB **** ~ Upstream point elevation = 1041.500(Ft.) ~ Downatream point elevation = 1025.000(Ft.) Channel length thru subarea = 2350.000(Ft.) ~ Channel base width = 5.000(Ft.) Slope or 'Z' of left channel bank = 2.000 Slope or 'Z' of right channel bank = 2.000 Bstimated mean flow rate at midpoint of channel = 1810.564(CFS) ~ Manning's 'N' = 0.015 _ ' Maximum depth of channel 8.000(Ft.) Flow(q) thru subarea = 1810.564(CFS) ~ Depth of flow = 5.957(Ft.), Average velocity = 17.968(Ft/s) Channel flow top width = 28.829(Ft.) Flow Velocity = 17.97(Ft/s) Travel time = 2.18 min. ?v-~ ~ zs7 ~ Time of concentration = 40.31 min. ~ Sub-Channel No. 1 Critical depth = 7.625(Ft.) ~ ~ ~ Critical flow top width = 35.500(Ft.) ~ ~ ~ Critical flow velocity= 11.726(Ft/s) az. ~ ~ ~ Critical flow area = 154.406(Sq.Ft) ~ Adding area flow to channel ~ UNDgVSLOPSD (poor cover) subarea Runoff Coefficient = 0.762 Decimal fraction soil group A= 0.000 ~ Decimal fraction soil group B= 0.500 Decimal fraction soil group C= 0.500 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 82.00 ~ Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall intenaity = 1.618fIn/Hr) for a 100.0 year storm Subarea runoff = 22.196(CFS) for 18.000(Ac.) d Total runoff = 1818.957(CFS) Total area = 1189.500(Ac.) +++++++++++++++++++++++++++++++++++++++++++++++++++++++++~++++++++++++ Process from Point/Station 109.000 to Point/Station 109.000 ~ +*** CONFLUSNCB OF MAIN STRBAMS ***t ~ The following data inside Main Stream is listed: in Main Stream number: 1 Stream flow area = 1189.500(Ac.) Runoff from this atream = 1818.957(CFS) M Time of concentration = 40.31 min. Rainfall intensity = 1.618(In/Hr) Program is now starting with Main Stream No. 2 ~~ ++++++++++++++++++++~+++++++++++++++++++++++++++++++++++++++++++++++++ ~ Proceas from Point/Station 110.000 to Point/Station 111.000 •t** INITIAL AREA SVALUATION **** Initial area flow distance = 1000.000(Ft.) Top (of initial area) elevation = 1058.000(Ft.) ~- Bottom (of initial area) elevation = 1045.ooo(Ft.) Difference in elevation = 13.000(Ft.) Slope = 0.01300 s(percent)= 1.30 ~, TC = k(0.530)*[(length"3)/(elevation change)]"0.2 Initial area time of concentration = 20.021 min. Rainfall intensity =. 2.377(In/Hr) for a 100.0 year etozm ~, UNDSVSIAPBD (poor cover) subarea Rurtoff Coefficient = 0.801 Decimal fraction soil group A= 0.000 ~ Decimal fraction soil group B= 0.500 Decimal fraction soil group C= 0.500 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 82.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Initial eubarea runoff = 12.765(CFS) Total initial etream area = 6.700(AC.) ~ Pervious area fraction = 1.000 ~-V~ ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ~ ~ ~, 25$ Process from Point/Station 111.000 to Point/Station 112.000 +*** NAT[JRAL CHANNBL TIMS + SUBAR$A FLOW ADDITION **** ~ Top of natural channel elevation = 1045.000(Ft.) Bnd of natural channel elevation = 1037.000(Ft.) ~ Length of natural channel = 960.000(Ft.) $stimated mean flow rate at midpoint of channel = 19.909(CFS) ~ Natural valley channel type uaed L.A. County flood control district formula for channel velocity: Velocity(ft/s) _ (7 + 8(q(Snglish Units)".352)(slope"0.5) ,~ Velocity uaing mean channel flow = 2.73(Ft/s) Correction to map slope used on extremely rugged channels with drope and waterfalls (Plate D-6.2) ' Normal channel slope = 0.0083 Corrected/adjusted channel slope = 0.0083 Travel time = 5.86 min. TC = 25.88 min. ' i ~ ' , ~ ' ~ ' ~ ~ P,dding area flow to channel UNDSVEIAPSD (poor cover) subarea Runoff Coefficient = 0.788 Decimal fraction eoil group A= 0.000 Decimal fraction soil group H= 0.500 Decimal fraction soil group C= 0.500 Decimal fraction soil group D= 0.000 RI index for soil(AMC 2) = 82.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall inter~sity = 2.065(In/Hr) for a 300.0 year stoxm Subarea runoff = 12.205(CFS) for 7.500(AC.) Total runoff = 24.970(CFS) Total area = 14.200(AC.) +++++++++++++++++++++++++++++~++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 112.000 to Point/Station 115.000 **** NATURAL CHANNSL TIMB + SUBARBA FLOW ADDITION •*~* Top of natural channel elevation = 1037.000(Ft.) Bnd of natural channel elevation = 1033.400(Ft.) Length of natural channel = 560.000(Ft.) Setimated mean flow rate at midpoint of channel = 27.783(CFS) Natural valley channel type used L.A. County flood control district forniula for channel velocity: Velocity(ft/s) _ (7 + 8(q(Bnglish Unita)".352)(slope"0.5) Velocity using mean channel flow = 2.63(Ft/s) Correction to map alope used on extremely rugged channels with drops and waterfalle (Plate D-6.2) Normal channel slope = 0.0064 Corrected/adjusted channel slope = 0.0064 Travel time = 3.55 min. TC = 29.43 min. Adding area flow to channel UNDBVSLOPBD (poor cover) subarea Runoff Coefficient = 0.781 Decimal fraction soil group A= 0.000 Decimal fraction soil group B= 0.500 4\ ,, ~ Z~ 5 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ , Procesa from Point/Station 121.000 to Point/Station 122.000 ***• NATURAL CHANNBL TIMB + SUBARSA FLOW ADDITION ***• Top of natural channel elevation = 1038.000(Ft.) ~ Snd of natural channel elevation = 1028.000(Ft.) Length of natural channel 1140.000(Ft.) Estimated mean flow rate at midpoint of channel = 66.998(CFS) ~ Natural valley channel type used L.A. County flood control district formula for channel velocity: ~ Velocity(ft/s) _ (7 + e(q(Bnglieh Units)".352)(slope"0.5) Velocity using mean channel flow = 3.95(Ft/s) Correction to map slope used on extremely rugged channels with ~ drope and materfalls (Plate D-6.2) Normal channel elope = 0.0088 Corrected/adjusted channel slope = 0.0088 ~ Travel time = 4.81 min. TC = 25.48 min. ~ Adding area flow to channel UNDSVSLOPED (poor cover) subarea Runoff Coefficient = 0.789 Decimal fraction soil group A= 0.000 ~ Decimal fraction soil group B= 0.500 Decimal fraction soil group C= 0.500 Decimal fraction soil group D= 0.000 ~ RI index for soil(AMC 2) = 82.00 Pervious area fraction = 1.000; Impervious fraction = 0.000 Rainfall inteneity = 2.082(In/Ar) for a 100.0 year stoxm Subarea runoff = 27.599(CFS) for 16.800(AC.) ~ Total runoff = 77.947(CFS) Total area = 42.200(AC.) M +++++++++++++++++~++++++++++++++++++++++++++++++++++++++++++++++++++++ Process from Point/Station 122.000 to Point/Station 122.000 ***• CONFLUENCS OF MINOR STR$AMS **+* ~ Along Main Stream number: 2 in nozmal stream number 2 Stream flow area = 42.200(AC.) Runoff fram this stream = 77.947(CFS) ~ Time of concentration = 25.48 min. Rainfall intensity = 2.082(In/Hr) Summary of stream data: ~ Stream Flom rate TC Rainfall Intenaity No. (CFS) (min) (In/Hr) ~ 1 119.236 34.39 1.766 2 77.947 25.48 2.082 Largeat etream flow has longer time of concentration M, Qp = 119.236 + eum of Qb ia/Ib ~ 77.947 * 0.848 = 66.102 Qp = 185.338 Total of 2 streams to confluence: ~?~ ~ Flow rates before confluence point: i ~ I~ 2GC 119.236 77.947 ~ Area of atreams before confluence: 73.200 42.200 Reaulte of confluence: ~ Total flow rate = 185.338(CFS) Time of concentration = 34.390 min. Sffective etream area after confluence = 115.400(AC.) r ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Proceas from Point/Station 122.000 to Point/Station 122.000 II ~ ***~ CONFLUBNCS OF MAIN STREAMS **** The following data inside Main Stream is listed: !,I ~ In Main Stream number: 2 Stream flow area = 115.400(AC.) Runoff from this stream = 185.338(CFS) Time of concentration a 34.39 min. 'I ~ Rainfall intensity = 1.766(In/Hr) Summary of atream data: I~ Stream Flow rate TC Rainfall Inteneity No. (CFS) (min) (In/Hr) ~ 1 1818.957 40.31 1.618 2 185.338 34.39 1.766 Largest stream flow has longer time of concentration ~ Qp = 1818.957 + sum of Qb ia/Ib 185.338 * 0.916 = 169.846 ~ Qp = 1988.802 Total of 2 main streams to confluence: Flow rates before confluence point: ~ 1818.957 185.338 ~ Area of atreame before confluence: 1189.500 115.400 ~ Results of confluence: Total flow rate = 1988.802(CFS) M Time of concentration = 40.305 min. _ 8ffective etream area after confiuence 1304.900(AC.) ~~